Network selection in a shared network environment

ABSTRACT

The invention relates to a method for performing a selection of a public land mobile network identity in a shared network environment, in which environment at least two public land mobile network identities are available for providing circuit switched based service to a user equipment. The method comprises at least a step of determining a capability of the user equipment ( 201 ) and a step of selecting the public land mobile network identity ( 202 ) at least partly on the basis of the capability of the user equipment among the at least two public land mobile network identities. According to the invention information on the capability of the user equipment is maintained in a database and in a step of determining the capability of the user equipment, the database is utilized. Furthermore, the invention relates to a network element and a system for implementing at least party the method according to the invention.

TECHNICAL FIELD

The invention concerns in general the technical field of selection of anetwork in a shared network environment. Especially the inventionconcerns the selection of a PLMN-id for a circuit switch fallback.

BACKGROUND OF THE INVENTION

The evolution of wireless communications has resulted in an increase ofnetworks of different technologies and corresponding different airinterfaces within an area. As a result, during the course of a singlecall, a wireless user equipment (UE) may roam among multiple radioaccess networks (RANs), wherein each such RAN implements a differenttechnology to the other RANs of the multiple RANs, for example, a secondgeneration (2G) and a third generation (3G) circuit switched RAN, suchas a GSM (Global System for Mobile communications) network and WCDMA(Wideband Code Division Multiple Access) providing primarily circuitvoice service, and a packet data RAN, such as a later generation 3GPPLTE (Third Generation Partnership Project Long Term Evolution) network.As the UE roams among the circuit switched RAN and the packet data RANproviding packet data services, it may be beneficial to systemperformance to handover the UE between the circuit switched RAN and thepacket data RAN for example due to fact that channel conditionsassociated with the latter RAN may be more favorable than the channelconditions associated with the former RAN. By way of some otherexamples, an operator of both a legacy circuit network and a packet datanetwork may desire to move the UE from one such network to the othernetwork for purposes of system load balancing and/or for providingcertain services to the UE, which cannot be offered in the network intowhich the UE is presently connected.

Another aspect, in addition to different network technologies within anarea, is the management of networks by telecom operators. In a singlearea there can be one or more networks with different technologiesoperated by one or more telecom operators. One can directly see thatsuch an environment increases the complexity of a network selection bythe user equipment (UE), but it is also inefficient from operators'point of view due to high investment costs of a network or part of it.In order to improve the efficiency the operators may have agreed onsharing at least part of their networks, e.g. in a situation when anetwork is owned by some companies in a joint ownership basis. As aresult, operators may establish an own network for certain areas, butco-utilize a network in some other areas in order to provide extensivecommunication services to the subscribers.

There exist different models for the network sharing. Mainly, the modelsrelate to the extent of sharing the network and/or part of it. Inprinciple, it is possible to share any part of the network, butbasically one can talk about sharing a core network, radio network orboth of them. The sharing shall also be understood as covering a shareof at least one network element and/or radio resources. Morespecifically, a network sharing architecture shall, according to atleast 3GPP Specification TS 23.251 V11.0.0 (2011-09), allow differentcore network operators to connect to a shared radio access network. Theoperators do not only share the radio network elements, but they mayalso share the radio resources. In addition to this shared radio accessnetwork the operators may or may not have additional dedicated radioaccess networks, like for example, 2G radio access networks. There aretwo identified architectures to be supported by network sharing inWCDMA. In both of these architectures the radio access network isshared. In addition to that the first architecture, also known as aGateway Core Network (GWCN) configuration, introduces a solution inwhich also parts of the core network, such as Mobile Switching Centres(MSC) and Serving GPRS Support Nodes (SGSN), are also shared amongdifferent operators. The other network architecture supported by networksharing is the one in which only the radio access network (RAN) isshared and core network nodes operated by different operators areconnected to the same Radio Network Controller (RNC). This architectureis known as a Multi-Operator Core Network (MOCN).

The principles of the above described architectures are also applicableto other network technologies than WCDMA. For the Evolved Packet System(EPS) on the packet switched (PS) domain of the architectures isrelevant only. For EPS the both above described architectures apply, butthe Mobility Management Entity (MME) replaces the SGSN, the eNode Breplaces the RNC and the S1 reference point replaces the lu interfacebetween the core network (CN) and UTRAN. For GERAN access only thelatter of the architectures (MOCN) described above applies. The RNC isreplaced with Base Station Controller (BSC) and lu interface is replacedwith A/Gb interface.

An example of a shared network model of MOCN type can be such anarchitecture in which two core network operators share an UTRAN.However, both operators have their own E-UTRAN and GERAN networks i.e.they are not shared. Thus, the operators share UTRAN RNC and other radionetwork elements, such as base stations, within an area. It is clearthat multiple other network sharing architectures may be configuredaccordingly.

Next, the network sharing is considered from UE point of view. In orderto utilize shared networks the UE must be capable of it. In practicethis means that the UE must be able to receive and utilize theadditional broadcast system information concerning available corenetwork operators in the shared network. The term ‘core networkoperator’ shall be understood as an operator that provides services tosubscribers as one of multiple serving operators that share at least aradio access network. Each core network operator may provide services toa subscriber of other operators by national or international roaming.Based on the capability of utilizing the additional broadcast systeminformation user equipments can be categorized into two groups. Firstgroup are such UEs, which support network sharing in the sense that theyare able to select a core network (CN) operator as the serving operatorwithin a shared network on the basis of the additional broadcast systeminformation. Such UEs are called in this context supporting UEs.Correspondingly, second group of UEs i.e. non-supporting UEs do notsupport network sharing in the sense that they ignore the additionalbroadcast system information that is specific for network sharing.Worthwhile to mention is that no information concerning theconfiguration of a shared network is indicated to the non-supporting UE.

Each cell in shared radio access network shall include informationconcerning available core network operators in a shared network into thebroadcast system information. The available core network operators shallbe the same for all cells of a Location Area in a shared UTRAN or GERANnetwork and the core network operators are identified by a PLMN-id,which consists of a Mobile Country Code (MCC) and a two to three digitMobile Network Code (MNC). Furthermore, each location area of a publicland mobile network (PLMN) has its own unique identifier which is knownas Location Area Identity (LAI). This internationally unique identifieris used for location updating of mobile subscribers. It is composed of athree decimal digit Mobile Country Code (MCC), a two to three digitMobile Network Code (MNC) that identifies the PLMN in that country, anda Location Area Code (LAC). Similarly, the available core networkoperators shall be the same for all cells of a Tracking Area in a sharedE-UTRAN network. Each tracking area of a PLMN has its own uniqueidentifier which is known as Tracking Area identity (TAI). The TrackingArea Identity is constructed from the MCC (Mobile Country Code), MNC(Mobile Network Code) and TAC (Tracking Area Code).

When a UE performs an initial access to a shared network, one ofavailable CN operators shall be selected to serve the UE. The selectionis dependent on the type of the UE described above. A supporting UEdecodes the broadcast system information to determine available corenetwork operators in the shared network and cell (re-)selectionprocedures. The UE regards both the core network operators indicated inthe broadcast system information and conventional networks as individualnetworks. By the term ‘conventional network’ it is meant a PLMNconsisting of radio access network and core network, by which only oneserving operator provides services to its subscriber, and subscribers ofother operators may receive services by national or internationalroaming. The core network operators together with all conventionalnetworks are candidate PLMNs in the PLMN-id selection procedure that isperformed by the supporting UE. The selection of a core network operatorby the UE shall be respected by the network. Supporting UEs inform theradio resource controlling element, such as RNC or eNode B, of thenetwork identity of the chosen core network operator from a list ofPLMNs in the broadcast system information. In a UTRAN GWCNconfiguration, the RNC relays the chosen network identity to the sharedcore network node. In a MOCN configuration, the RAN routes the UE'sinitial access to one of the available CN nodes in the shared network.Thus, the supporting UEs inform the RAN of the chosen core networkoperator, which the RAN uses in order to route correctly.

A non-supporting UE, in its turn, ignores the broadcast systeminformation that is relevant for network sharing. Thus, only the commonPLMN together with all conventional networks are candidate PLMNs for thePLMN-id selection procedure that shall be performed by the UE. Forindicating a common PLMN i.e. the serving operator for thenon-supporting UE a broadcast “common PLMN-id” is used in the PLMN(re)selection processes in UTRAN by the UE. In other words, the commonPLMN is a PLMN-id indicated in the system broadcast information asdefined for conventional networks (non-shared networks). Thenon-supporting UEs consider the Common PLMN and the location area codeas the Location Area Identity (LAI) and the common PLMN and the locationand routing area code as the Routing Area Identity (RAI). The commonPLMN does not point out one particular CN operator but any of the CNoperators may be able to serve a non-supporting UE. Thus, the RAN, whenserving a UE, initially tries to take the UE under control of one CNoperator. However, in this initial CN routing phase the RAN has verylittle information about the subscriber (for example lacks informationabout the customers IMSI) and for that reason the initial routing phasemay not work out. If the routing phase is not successful, a redirectionto another CN operator may be required for non-supporting UEs until suchan operator is found that can serve the UE. In particularly, fornon-supporting UEs of subscribers belonging to one of the CN operatorsit is not likely to have a roaming agreement with the other CN operatorsin the shared network, since each CN operator is willing to serve itsown subscribers. A special case of non-supporting UEs are inboundroamers with non-supporting UEs, whose home operator has roamingagreement with more than one CN operator in a shared network. Suchsubscribers may always be redirected to one of the CN operators (e.g.based on International Mobile Subscriber Identity (IMSI) analysis), butit can also be redirected to different operator depending on thegeographical area or old Temporary Mobile Subscriber Identity (TMSI),for example.

Moreover, a supporting UE shall use the PLMN-ids that are broadcast inthe Multiple PLMN ID List information element. The Common PLMN may ormay not be part of the Multiple PLMN ID List. If the common PLMN is partof the multiple PLMN ID list, the common PLMN indicates one of the CNoperators for the supporting UEs and no redirection applies. Thesupporting UEs select one of the Multiple PLMNs and consider theselected PLMN and the location area code as the location Area Identity(LAI) and the selected PLMN and the location and routing area code asthe Routing Area Identity (RAI). Thus, in a shared network UEs using thesame cell use different location and routing area identities becausePLMN identity is different (but location area code is same for all) dueto the fact that different CN operators have their own identifier inPLMN-id, and thus in LAI as described above. If the LAI of a cell is notthe same as the registered LAI the UEs performs location update, and ifRAI of a cell is not the same as the registered RAI the UEs performsrouting update.

In order to introduce the problem in a shared network architecture weneed to describe a novel feature in EPS network i.e. LTE network. TheEPS network consists of Evolved Packet Core (EPC) and Evolved UniversalTerrestrial Radio Access Network (E-UTRAN).

EPS does not currently have any Circuit Switched (CS) domain due to thefact that EPS technology is based on Packet Switched (PS) domain.However, there exist some services, especially at the beginning of EPSdeployment that needs to be provided based on CS technology. Suchservices are e.g. voice calls and short message service (SMS) amongothers. Yet, a UE capable of EPS cannot utilize e.g. the UTRANsimultaneously while camping in LTE and, as a result, there are no meansof originating or terminating any voice calls from e.g. WCDMA CS domain.In order to provide necessary CS based services to subscribers it wasdecided on a mechanism to support such needs. The mechanism is calledCircuit Switched Fallback (CSFB) function, which enables e.g. voiceservices by using existing WCDMA CS domain functions to be provided tosubscribers in EPS.

The CSFB means that the UE is directed from EPS to GERAN (2G) or UTRAN(3G) for voice service. At mobile terminating call a circuit switchedcall arrives at the MSC Server, the MSC Server sends a page request overthe SGs interface to the MME in E-UTRAN. MME starts the paging of the UEin E-UTRAN with the information element CN domain indicator set to CS(Circuit Switch) in the paging message for indicating that the CSnetwork originated the paging. The eNode Bs to be paged are determinedfrom the MME list of TAIs for the UE or from the location informationsent in the MSC paging message. When the UE is found i.e. the UEresponds with an Extended Service Request for mobile terminating CSfallback to MME, the MME instructs the eNode B to perform CSFB for theUE by sending CSFB indicator in an Initial UE Context Setup message, ifUE is in idle mode, or in a UE Context Modification Request message, ifUE is in active mode. The eNode B determines into which RAT or carrierfrequency the UE should be moved to and directs the UE to retune to anew cell. In case of a PS handover the eNode B determines, preferablybased on UE measurements, which cell the UE should be moved to andhandover the UE to the new target cell. If the location area identifierof the new cell differs from the one stored in the mobile device, alocation update must be performed before the UE responds to the page toestablish the call connection. Correspondingly, for mobile originatedcalls, the UE makes a service request with the Extended Service Requestmessage for mobile originating CS fallback to the MME. The MME requeststhe eNode B to perform CSFB for the UE by sending CSFB indicator in anInitial UE Context Setup message, if UE is in idle mode, or in a UEContext Modification Request message, if UE is in active mode. The eNodeB redirects or handovers the UE to the GERAN (2G) or UTRAN (3G). Todetermine the target GERAN or UTRAN cell to which the UE should bemoved, the eNode B may either solicit measurements from the UE or useits existing information about preconfigured cells. When the target cellhas been identified, the eNode B triggers a cell change to the 2G/3Gnetwork by sending a Radio Resource Control (RRC) message to the UE. TheUE moves to the new cell and performs a radio resource connection usingagreed procedures. In addition, before the call originates, a locationupdate may be necessary if the LAI of the new cell differs from the onestored in the UE.

To better understand the CSFB function FIG. 1 illustrates the EPSarchitecture with the necessary elements from the CS based systems. UE101 comprises means for interacting with different communicationstechnologies, such as GSM, WCDMA and LTE. Thus, UE 101 is able to be inconnection to GERAN 105 over Um interface. Alternatively or in addition,the UE 101 is able to be in connection to UTRAN 106 over Uu interface.Furthermore, the UE 101 comprises means for being interaction withE-UTRAN 102 over LTE-Uu interface. Both the GERAN 105 and UTRAN 106 arecontrolled by MSC server 104 over either interface A for GERAN 105 orinterface lu-cs for UTRAN 106. Interface lu-cs between UTRAN and MSCServers is especially meant for CS service purposes. Moreover, theE-UTRAN 102 is controlled by MME 103 over S1-MME interface. In order tomanage connections and roaming aspects of UEs an interface SGs isconfigured to enable signaling between MME 103 and MSC 104. Networkelement SGSN 107 providing support for packet services in GSM and WCDMAsystems interacts with MSC server 104 over Gs interface and over Gbinterface to GERAN 105 and over lu-ps interface to UTRAN 106.

In order to manage the CSFB there is a need for EPC system to know ifthe UE supports CSFB. Thus, when the UE attaches to the EPC system usingE-UTRAN it indicates that it supports CSFB if that is the case. Theindicator makes the MME node inform the MSC Server that a UE supportingCSFB has attached (using the same technique as SGSNs and MSC Servers usefor a combined attach). The MME allocates a LAI, which is configured onthe MME and may take into account the current TAI (Tracking AreaIdentity) that the UE is located in. Typically the MME has a mappingtable in which the current TAI points out the LAI to be used, and thecurrent TAI and the LAI in the mapping table has more or less the samegeographical coverage. Current TAI means the TAI of the current servingcell in E-UTRAN. In this process the UE becomes registered in thecurrent TA (Tracking Area) in EPS (or in a list of TAs) and in one LA(Location Area) in MSC.

If multiple PLMNs are available for the CS domain, the MME performsselection of the PLMN for CS domain based on selected PLMN informationreceived from the eNode B, current TAI, old LAI and operator selectionpolicies on preferred Radio Access Technology (RAT) for CS domain. ThePLMN selected for CS should be the same that is used for this UE as atarget PLMN for PS handovers or for any other mobility proceduresrelated to CSFB. The selected PLMN-id is included in the LAI which issent to MSC/VLR and in Attach Accept to the UE.

In order to maintain the location information up-to-date the UE performsa Tracking Area (TA) update when TA update timer expires or when the UEmoves into a TA that it is not registered in EPC connection. At each TAupdate the UE becomes registered in a TA into which the current EPS cellbelongs to (or in a list of TAs). If needed, the UE becomes registeredin a new LA in MSC, which registration is performed by MME over the SGsinterface. In order to be able to perform necessary registrations theMME needs a mapping table between TAI and LAI to be able to contact theright MSC/VLR (Visitor Location Register) and to judge whether LA updateis required at a TA update.

The problem arises at least partly from that the UE is moved to an UTRANcell, or possibly to GERAN cell if Multiple PLMN ID List is introducedin GERAN, in which the UE recognizes another LAI than the one the UE isregistered to for the CSFB procedure by as described above. As a resultthe UE performs a LA update before responding to the paging at mobileterminating call or before performing CS call establishment procedure ata mobile originating call.

The LA update due to different LA is performed when PS handover or RRCCONNECTION RELEASE with redirection indication is used to indicate theneed for CSFB to the UE. Since CSFB will approximately double the callsetup time compared to normal call setup time due to LA update, it isbeneficial to develop such procedures that shorten the CSFB time.

Another aspect is that when the terminal attaches to the EPC systemusing E-UTRAN it indicates that it supports CSFB, but it does notindicate if it is a supporting UE for UTRAN shared network. The reasonfor not having a supporting UE indication is that all UEs from a certainversion of the technical specifications are supposed to be supportingUEs and the network sharing functionality of understanding multiplePLMNs sent on the broadcast channel is mandatory according tocorresponding technical specifications. In reality there exist UEs thatdo not have the shared network functionality activated e.g. a reasonthat UE vendors do not activate the functionality because a lack ofinteroperability tests. Therefore, both the supporting UEs and thenon-supporting UEs of the same specification exist in shared networks,but EPC does not know if a UE is supporting or non-supporting terminal.As a result, it does not know if the UE will use common PLMN or one ofthe multiple PLMNs in a shared UTRAN. During the attach procedure theMME allocates a LAI for a UE, which is configured in the MME. Whentarget network for CSFB, e.g. UTRAN, is shared, the MME has to select aPLMN for this LAI, which is either the common PLMN or a multiple PLMN.However, the selection between common PLMN and the multiple PLMN turnsout to be impossible, since the MME cannot be sure that the UE issupporting or non-supporting type of UE. In a case, that the MMEallocates the common PLMN and sends the Common PLMN identity to asupporting UE, the UE will have a mismatch of LAI in the target sharednetwork, since this UE will not use the common PLMN but a multiple PLMN.Correspondingly, if the MME allocates a multiple PLMN and sends themultiple PLMN identity to a non-supporting UE, the UE will have amismatch of LAI in the target shared network, since this UE will not usethe multiple PLMN but the common PLMN. The term ‘a multiple PLMN’ refersto one PLMN that is disclosed in the Multiple PLMN ID List broadcast ina location area.

The consequence of both of these alternatives is that the CSFB time islonger due to the required LA update and therefore the call set up timeis longer causing dissatisfaction to the user of the terminal.

For in bound roamers with non-supporting UEs and that has roamingagreement with more than one operator, location update may result inthat this subscriber is rerouted by RAN to another CN operator than theCN operator whose MSC Server the roamer is registered. The roamer willthen be served by another MSC/VLR than the chosen one by the MME. Tosave the call the network needs to support roaming retry or roamingforwarding for CS fallback between to different CN operators. If roamingretry or roaming forwarding is not supported the CS fallback will fail.The roaming retry takes very long time and is not suitable for CSfallback. Mobile Terminating Roaming Forwarding” procedure and roamingforwarding also adds substantial delay to the CS fallback procedure.

As a summary, it would be advantageous to introduce a solution in whichthe MME in E-UTRAN is aware of the type of a UE for which it is defininga PLMN during CSFB procedure. This enables the MME to determine the mostappropriate PLMN for the UE complying with the allocated LAI.

SUMMARY OF THE INVENTION

An objective of the invention is to present a method, a network elementand a system for performing a selection of a public land mobile identityin a shared network environment. Another objective of the invention isthat the method, the network element and the system for performing theselection minimizes any delay in a need of a certain type of networkservice by also optimizing the needed resources in order to provide theservice.

The objectives of the invention are achieved by introducing a novelmethod for taking into account the capability of a user equipment whenselecting the public land mobile identity in a shared networkenvironment for a service. More precisely, the capability of the userequipment is determined and the public land mobile network identity isat least partly selected on the basis of the capability of the userequipment. The objectives of the invention are also achieved by anetwork element and a system implementing the corresponding methodsteps.

Some aspects of the invention relate to a method for performing aselection of a public land mobile network identity in a shared networkenvironment, in which environment at least two public land mobilenetwork identities are available for providing circuit switched basedservice to a user equipment. The method comprises a step of determininga capability of the user equipment and a step of selecting the publicland mobile network identity at least partly on the basis of thecapability of the user equipment among the at least two public landmobile network identities.

According to another aspect of the invention the method comprises afurther step of allocating the user equipment to a location area bymeans of a location area identifier comprising information on theselected public land mobile network identity in order to provide circuitswitched based service to the user equipment.

Some aspects of the invention relate to an idea that the user equipmentis allocated to location area by means of a location area identifier ina context of a combined EPS/IMSI attach or a combined tracking andlocation area update or combined tracking and location area update withIMSI attach.

Additionally, some aspect of the invention is that the determination ofthe capability of the user equipment comprises a step of inquiringinformation from a database if the user equipment is capable ofsupporting network sharing information broadcast or not. For example,Mobile Equipment Identity (IMEI) or Type Allocation Code (TAC) can beused for determining the capability of the user equipment.

Some additional aspects of the invention teach that a multiple publicland mobile network identity is selected if the determination of thecapability of the user equipment indicates that the user equipment iscapable of utilizing information relating to network sharing withinsystem broadcast information. Some aspects teach that a common publicland mobile network identity is selected if the determination of thecapability of the user equipment indicates that the user equipment iscapable of utilizing information relating to network sharing withinsystem broadcast information.

Further aspects of the invention introduce a a step of storing at leastone of the following information in a memory: the result of thedetermination of the capability of the user equipment, information onthe selected public land mobile network, the location area identifier,information inquired from the database, a reference indicating thecapability of the user equipment.

Additionally, some aspects of the invention comprise a further step ofchecking if the memory comprises stored information relating to at leastone of the following: the result of the determination of the capabilityof the user equipment, information on the selected public land mobilenetwork, the location area identifier, information inquired from thedatabase, a reference indicating the capability of the user equipment beutilized in a subsequent selection of the public land mobile networkidentity.

An aspect of the invention is that the capability of the user equipmentto support network sharing is determined based on a previously selectedpublic land mobile network selection indicated in a location areaidentifier.

According to an aspect of the invention the selection of the public landmobile network identity is configured to be performed in a context ofcircuit switched fallback.

Some aspects of the invention relate to a network element performing atleast partly a selection of a public land mobile network identity in ashared network environment, in which environment at least two publicland mobile network identities are available for providing circuitswitched based service to a user equipment. According to aspects of theinvention the network element is configured to determine a capability ofthe user equipment, and to select the public land mobile networkidentity at least partly on the basis of the capability of the userequipment among the at least two public land mobile network identities.

Some additional aspects of the invention relate to the network elementthat is further configured to allocate the user equipment to a locationarea by means of a location area identifier comprising information onthe selected public land mobile network identity in order to providecircuit switched based service to the user equipment. Further, someaspects of the network element according to the invention relate to suchan implementation in which the network element is configured to becoupled to a database comprising at least part of information on thecapability of the user equipment.

Additionally, some aspects of the network element according to theinvention disclose that the network element is configured to inquireinformation from the database in order to determine the capability ofthe user equipment.

The network element according some aspects of the invention isconfigured to select a multiple public land mobile network identity ifthe determination of the capability of the user equipment indicates thatthe user equipment is capable of utilizing information relating tonetwork sharing within system broadcast information and in that a commonpublic land mobile network identity is selected if the determination ofthe capability of the user equipment indicates that the user equipmentis capable of utilizing information relating to network sharing withinsystem broadcast information.

Some additional aspects of the invention disclose that the networkelement comprises a memory for storing at least one of the following:the result of the determination of the capability of the user equipment,information on the selected public land mobile network, the locationarea identifier, information inquired from the database, a referenceindicating the capability of the user equipment.

Furthermore, some aspects of the invention relate to a telecommunicationsystem comprising a packet switched network, a shared network, in whichat least two public land mobile network identities are available forproviding circuit switched based service to a user equipment and inwhich system the packet switched network and the shared network areconfigured to inter-work with each other. According to the aspects ofthe invention for selecting a public land mobile network identity thepacket switched network is configured to determine a capability of theuser equipment, and select the public land mobile network identity atleast partly on the basis of the capability of the user equipment amongthe at least two public land mobile network identities, and allocate theuser equipment to a location area by means of a location area identifiercomprising information on the selected public land mobile networkidentity in order to provide circuit switched based service to the userequipment within the shared network.

A method according to the invention is characterized by the stepsrecited in the characterizing part of the independent claim directed toa method.

A network element according to the invention is characterized by thefeatures recited in the characterizing part of the independent claimdirected to a network element.

A system according to the invention is characterized by the featuresrecited in the characterizing part of the independent claim directed toa system.

Some advantageous embodiments of the invention are disclosed in thedependent claims.

The exemplary embodiments of the invention presented in this patentapplication are not to be interpreted to pose limitations to theapplicability of the appended claims. The verb “to comprise” is used inthis patent application as an open limitation that does not exclude theexistence of also unrecited features.

The features recited in depending claims are mutually freely combinableunless otherwise explicitly stated.

The novel features which are considered as characteristic of theinvention are set forth in particular in the appended claims. Theinvention itself, however, both as to its construction and its method ofoperation, together with additional objects and advantages thereof, willbe best understood from the following description of specificembodiments when read in connection with the accompanying drawings.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 illustrates the EPS architecture with the necessary elements fromthe CS based systems,

FIG. 2 illustrates at least part of the method steps according to anembodiment of the invention,

FIG. 3 illustrates at least part of the signaling according to anembodiment of the invention of acquiring information of the capabilityof a UE, and

FIG. 4 illustrates a network element according to an embodiment of theinvention.

DETAILED DESCRIPTION OF THE INVENTION AND ITS ADVANTAGEOUS EMBODIMENTS

Now the invention is described in detail by referring to someadvantageous embodiments of the inventive idea. The method according tothe invention relates to performing a selection of a public land mobilenetwork identity (PLMN-id) in a shared network environment, in whichenvironment at least two public land mobile network identities areavailable. Typically the public land mobile networks in a shared networkenvironment are offered by separate telecom operators who are sharing atleast part of the network and/or network elements. Especially, themethod according to the invention is configured to select a PLMNidentity in a shared network environment in order to offer circuitswitched service, when a user equipment (UE) needs such a service. Forexample, a circuit switched fallback situation is such a case, when theUE coupled to EPS, e.g. LTE network, needs to be re-directed into such anetwork that can provide CS services.

The method according to the invention is described by referring to FIG.2 illustrating at least part of the method steps of the invention. Theselection of the PLMN identity in a shared network environment is basedat least partly, according to the invention, to the capability of the UEto support network sharing. More specifically, when selecting the PLMNidentity it is determined 201 if the UE is supporting or non-supportingUE i.e. capable of utilizing the broadcast system information in ashared network environment or not for PLMN identity selection. Based onthe determination an appropriate PLMN identity is selected 202 in orderto minimize any further need to change the PLMN e.g. when aninappropriate PLMN is recognized in a context of CSFB, which initiatesthe location area update causing the CSFB time to be too long. Thus, itis important to know if the UE is supporting or non-supporting type ofUE and thus, if a common PLMN identity or multiple PLMN identity can beselected.

The determination of the capability of the UE is performed by inquiringinformation relating to the capability of the UE from a database. In thedatabase it is maintained information relating to UEs. For example, thedatabase may comprise information on the International Mobile EquipmentIdentities (IMEI) which are supporting type of UEs. Alternatively or inaddition, the database may comprise a list of IMEIs, which arenon-supporting type of UEs. It is enough if the database comprisesinformation to such extent that it can be decided if a UE is supportingor non-supporting type of UE, when such information is inquired from thedatabase. The IMEI is composed on the following elements: TypeAllocation Code (TAC), Serial Number (SNR) and spare digit. At least theTAC is important to be stored in the database since TAC defines the UEmodel type, which is enough for determining if the UE is supporting ornon-supporting type of UE. Thus, the database may comprise only the TACfor each UEs existing in the market in some embodiments of theinvention.

FIG. 3 illustrates an embodiment of the invention of acquiringinformation of the capability of a UE 101 from a database 302. A networkelement 103, such as MME, is configured to acquire information on the UEby delivering an Identity Request 303 to the UE 101, which is e.g.accessing to the network, in order to define some security relatedissues relating to the UE. The UE is equipped with a ME identity and isconfigured to inform its identity in a response signaling 304 to thenetwork element 103. The signaling between the network element 103 andthe UE 101 is performed over radio access network, which in EPS casecomprises e.g. eNode Bs 301. In response to the response message 304comprising the identity of the UE 101 the network element 103 isconfigured to deliver Mobile Equipment (ME) identity request 305comprising information relating to the UE 101 to the database 302. Inother words, information is inquired from a database if the userequipment is capable of supporting network sharing information broadcastor not. The information relating to the UE 101 may comprise an IMEI ofthe UE 101 or TAC of the UE 101, for example. The database 302 isconfigured to compare the information relating to the UE 101 to storedinformation in the database 302 and based on the comparison deliver aresponse message 306 comprising a response to the request to the networkelement 103.

Next, a more specific example of an embodiment of the invention isdescribed relating to the determination of the capability of the UE 101.The determination of the capability of the UE 101 is according to anembodiment of the invention performed in such a manner that the networkelement 103 inquiring the capability of the UE 101 from the database 302delivers 305 a TAC to the database 302. The delivered TAC is compared tostored TACs in the database 302. If the delivered TAC matches with a TACindicating the supporting type of UE 101, the database 302 delivers apositive response 306 to the network element 103. The response can beindicated with one bit in a response message, for example. Based on thepositive response the network element 103 can select an appropriate PLMNfor the 101 UE and deliver information on the selected PLMN-id to the UE101. According to another embodiment of the invention the networkelement 103 may deliver an IMEI of the UE 101 to the database 302. Thedatabase 302 compares the IMEI with the stored IMEIs and gives aresponse similarly as described above. According to still some otherembodiment the database 302 may be capable of determining the TAC fromthe delivered IMEI and compare the TAC with the stored TACs in thedatabase 302. According to still some further embodiment the database302 may give a negative response to the network element 103, which iscapable of determining that the UE is non-supporting type in that case.The positive and negative responses as described above are examples andthey may be used for opposite meanings. Moreover, it is possible toarrange that the database 302 comprises information on supporting typeof UEs or non-supporting type of UE or both of these. The response isalso possible to give in any such a manner that the network element 103is able to define the meaning of the response on its own in order tofind out if the UE 101 is supporting or non-supporting UE. Based on themeaning of the response the network element 103 can select anappropriate PLMN for the 101 UE and deliver information on the selectedPLMN-id to the UE 101.

According to some embodiment of the invention the database may beconfigured to request information relating to a delivered TAC or IMEI inME Identity request from another network element or network, such asfrom Internet. This can advantageously happen if the database does notcomprise information matching with the delivered TAC or IMEI in theMobile Equipment Identity request. The database is configured to findinformation revealing the capability of the requested UE to support ornot support the shared network information delivered in the broadcastsystem information in a network.

According to an embodiment of the invention, when the PLMN-id isselected, the UE is allocated to a location area by means of a locationarea identifier comprising information on the selected public landmobile network to provide circuit switched based service to the userequipment. More precisely, a network element allocates the UE either toa common PLMN or a multiple PLMN according to the capability of the UE.The UE is allocated to a common PLMN if the UE is non-supporting UE.Correspondingly, the UE is allocated to a multiple PLMN if the UE issupporting UE.

According to an embodiment of the invention the UE is allocated to alocation area by means of a location area identifier in some specificcontexts and/or occasions. The UE can be allocated at least, when the UEis performing so called combined attach to a network. This means thatthe UE is attaching both to the EPC and to the CS domain and it is knownas combined EPS/IMSI attach. Additionally, the allocation is configuredto be performed in a combined tracking and location area update whichmeans that the update procedure is performed when it is noticed that theUE is moved to other location area than the one the UE previously wasregistered to. Furthermore, the allocation of the UE to a LAI isconfigured to be performed in a context of a combined tracking andlocation area update with IMSI attach i.e. when a UE that is attachedfor EPS services wants to perform an attach for non-EPS services, suchas CS services.

In order to optimize the signaling traffic in a network the networkelement managing the PLMN selection for CS purposes in a shared networkenvironment may store the result relating to the capability of the UEinquired from a database in a memory. This enables the utilization ofthe result in any subsequent instances when the network element needs toknow the capability of the UE to support the network sharing in a sensethat the UE is capable of selecting the PLMN operator as the servingoperator for CS needs. The piece of information to be stored in a memoryof the network element can be the result of the determination of thecapability of the user equipment. Alternatively, the stored piece ofinformation can be a location area identifier (LAI) the UE is allocatedto or an identity of the selected PLMN. Furthermore, the stored piece ofinformation can be any other reference indicating the selected PLMN orLAI for the UE. Some embodiment of the invention discloses analternative that an IMEI or TAC representing the UE identity or anyother reference indicating the capability of the user equipment may bestored in the memory of the network element. This can be performed incontext of the inquiry of the information from a database i.e. when suchan inquiry is delivered, the network element initiating the inquirystores the IMEI or TAC information in the memory.

The stored piece of information in the memory of the network element canbe utilized in e.g. combined tracking area and location area update.Advantageously it is checked if the memory comprises stored informationrelating to the selection of the public land mobile network or locationarea identity. If the memory comprises stored information relating tothe result of the determination of the capability of the user equipment,information on the selected public land mobile network, the locationarea identifier or information inquired from the database in general, itis utilized in subsequent selection of the public land mobile networkidentity for allocation of location area identity accordingly. Thesubsequent selection can be a consequence of tracking and location areaupdate, for example.

According to an embodiment of the invention the public land mobilenetwork identity is selected according to previously selected publicland mobile network selection indicated in a location area identifier.The previously selected public land mobile can be the PLMN, which wasdefined in the previous CS fallback procedure if the UE has a LAI, orthe PLMN in a LAI that was allocated to the UE while accessing theshared (UTRA) network. This can be implemented, for example, in such away that the UE, when entering to E-UTRAN, delivers information on theold LAI into which the UE was allocated to in the previous attach,location updates or combined tracking and location area update. Morespecifically, before making a ME identity request and check, the networkelement is configured to check if the UE already has an old LAI. If theold LAI contains a Common PLMN the network element allocates the UE to anew LAI of a Common PLMN and sends this LAI to the UE in order to makethe UE to register to the LAI. Alternatively, if the old LAI contains aMultiple PLMN the network element allocates the UE to a new LAI of aMultiple PLMN and sends this LAI to the UE in order to make the UEregistered to the LAI. If there is no any type of old LAI existing, thenetwork element is configured to perform an ME identity request if MEidentity is not already available in the network element, and finallycheck against a data base if UE is a supporting or a non-supporting UE.Based on the outcome of the check the network element is configured todetermine an appropriate PLMN for the UE and thus allocate the UE to anappropriate LAI. According to some embodiment of the invention thenetwork element is configured to check the old LAI at attach or atcombined tracking area and location area update.

The invention also relates to a network element, which is configured tomanage at least partly the signaling and communication of the UE in anetwork. The network element can be responsible for UE tracking andpaging procedures including retransmissions. It can be involved in thebearer activation/deactivation process and be in responsible formanaging the initial attachment to a network. It can participate toauthentication procedures of the user and to termination of signalingand UE identity management issues. The network element can be configuredto provide control functions for mobility between LTE and 2G/3G accessnetworks when needed.

FIG. 4 illustrates an example of a network element 103, such as an MME,that comprises at least one processor unit 401 suitable for implementingone or more embodiments disclosed herein. In addition to the processorunit 401 (or Central Processor Unit; CPU) i.e. one or more processor(s),the network element may comprise network connectivity elements 402,random access memory (RAM) 403, read only memory (ROM) 404 andinput/output (I/O) devices 405. The network element 103 may furthercomprise a database 302 for storing at least part of informationrelating to the UEs utilizing the resources of a telecommunicationnetwork. These components may communicate with one another via a bus406. In some cases, at least some of these components can locate in asingle physical entity or in more than one physical entity.

The processor unit 401 is configured to execute instructions, computerprograms or scripts, which can be accessed via network connectivityelements 402, or from RAM 403 or ROM 404. While only one processor isdisclosed in FIG. 4, multiple processors may be present.

The network connectivity elements 402 may comprise any means forimplementing wired and/or wireless connectivity of the network element103, such as modems, Ethernet devices, universal serial bus (USB)interface devices, wireless local area (WLAN) devices, radio transceiverdevices, such as GSM radio transceiver devices, WCDMA radio transceiverdevices and/or LTE radio transceiver devices. The network connectivityelements enable at least the network element to communicate with thecorresponding external telecommunication networks or Internet or othernetworks or any other external network element over preconfiguredinterfaces.

The RAM 403 can be used to store volatile data and instructions that areexecuted by the processor. The ROM 404 is a non-volatile memory and itis used to store instructions and perhaps data that are read during theexecution of instructions.

The I/O devices 405 may include displays, touch screen displays,keyboards, keypads, switches, mice, track balls, voice recognizers, cardreaders, or other known I/O devices.

The database 302 may be implemented in the network element 103 orcoupled to it through the network connectivity elements 402. Thedatabase 302 comprises at least part of the information relating to theUEs necessary for implementing the method according to the invention.Thus, the database 302 comprises at least partly information on thecapability of a UE to support broadcast system information in a sharednetwork environment. The database 302 can be a separate memory elementor it can be implemented in RAM 403 or ROM 404 of the network element103.

According to an embodiment of the invention the network element 103comprises software stored in the memory elements and executed by theprocessor unit to acquire information on the UE by delivering anIdentity Request to the UE 101, which is e.g. accessing to the network.The processor when executing the software is configured to analyze thereceived response signaling from the UE and determine the identity ofthe UE. The network element 103 when executing the stored software bymeans of a processor is configured to deliver Mobile Equipment (ME)identity request comprising information relating to a UE to the database302. The information relating to the UE 101 may comprise an IMEI of theUE 101 or TAC of the UE 101, for example. In case, the database isimplemented in the network element 103, the network element 103 isconfigured to compare the information relating to the UE 101 to storedinformation in the database 302 and based on the comparison to deliver aresponse message indicating the capability of the UE i.e. indicating ifthe UE is supporting or non-supporting type of UE. Based on theindication the network element when executing the software by means ofat least one processor is configured to select an appropriate PLMN-idfor the 101 UE in a shared network and the network element is configuredto deliver information on the selected PLMN-id to the UE 101 by means ofappropriate signaling. Moreover, the network element according to theinvention is configured to implement any and all of the method stepsdescribed in a context of the method description above.

According to an embodiment of the invention the network element is MME.According to another embodiment the method steps are implemented atleast partly in the MME, but some steps may be configured to beimplemented in some other elements in the network, such as in a eNode inRAN.

The invention also relates to a telecommunication system comprising apacket switched network and a shared network, in which at least twopublic land mobile network identities are available for providingcircuit switched based service to a user equipment. The at least twopublic land mobile network identities can indicate different telecomoperators, for example. The packet switched network and the sharednetwork are configured to interwork with each other. The system andespecially the packet switched network is configured to, for selecting apublic land mobile network identity, determine a capability of the userequipment residing in an area served by the telecommunication system,and select the public land mobile network identity among the at leasttwo public land mobile network identities at least partly on the basisof the capability of the user equipment. Furthermore, the packetswitched network in the system is configured to allocate the userequipment to a location area by means of a location area identifiercomprising information on the selected public land mobile networkidentity in order to provide circuit switched based service to the userequipment within the shared network. Moreover, the system is capable ofimplementing all the method steps according to the invention anddescribed above. Thus, the system comprises any and all of the elementsdescribed earlier in order to be capable of implementing the methodsteps according to the invention. For example, the system comprises adatabase, which maintains the information on the capability of a userequipment to support broadcast system information in a shared networkenvironment, and within the system the determination of the capabilityof the user equipment is performed by inquiring information from adatabase. Moreover, the system comprises any necessary network elementin order to implement any method steps according to the invention inorder to select an appropriate public land mobile network identity for auser equipment residing in the system.

In general, the above described method, network element and system isprimarily targeted to be implemented in a context of circuit switchedfallback in order to provide satisfactory CS services to subscribers.The method may also be applicable in some other instances in atelecommunication network. Especially, the utilization of theinformation stored in the database relating to the capability of the UEcan be utilized in a similar manner also in other context. For example,according to some embodiments the information relating to the capabilityof the user equipment may be utilized if the UE is to be transferredfrom the packet switched network to another packet switched network.

According to some embodiment of the invention the capability informationrelating to the UE may comprise information if the UE supports so calledSingle Radio Voice Call Continuity (SR-VCC). The SR-VCC provides theability to transit a voice call from VoIP/IMS packet domain to thelegacy circuit domain, and thus it is important for a network element,such as a MME, to know if UE is capable of SR-VCC based transition. TheUE indicates it supports SR-VCC on a NAS (Network Access Server) level,but the UEs AS (Access Stratum) capabilities (indicated by the EUTRA FGIbit 9 to GERAN and FGI bit 27 to UTRAN) may not match the supportedSR-VCC of the network if the network only support SR-VCC from EUTRAN toGERAN or from EUTRAN to UTRAN. If the UE only supports e.g. SR-VCC toRadio Access Technology of a first type (RAT-1) while the MME knows byconfiguration that the network only supports SR-VCC to Radio AccessTechnology of a second type (RAT-2), the MME should indicate to the UEthat voice should be supported in CS domain. Therefore, the MME (andSGSN) needs accurate information on whether the UE supports SR-VCC toGERAN, UTRAN or both in order to decide whether to indicate “VoIMSpossible” or “VoIMS not supported” (VoIMS; Voice over IP MultimediaSubsystem) in the Attach/TAU/RAU accept messages. This will allow the UEto use this indication for deciding whether e.g. to use VoIMS, or toinitiate a combined attach for CSFB, or to move to 2G/3G only mode (whenCSFB is not available and UE is in “voice centric” mode). To resolve theUE the issue and find out the UE capability, the MME checks towards adatabase if the UE supports SR-VCC to UTRAN, or the MME checks towardsthe database if the UE supports SR-VCC to GERAN. Thus in this case thedatabase is configured with information of whether the UE supportsSR-VCC to UTRAN or GERAN. The MME could send the ME identity, IMEI orTAC as described, possibly together with a RAT indication, to thedatabase and the database responds with support or a non-supportindication. Based on the response of the UE SR-VCC capability the MMEdecide whether to indicate “VoIMS possible” or “VoIMS not supported” inthe Attach/TAU/RAU accept messages. If the UE and the network have sameSR-VCC capability, the MME selects “VoIMS possible”. Otherwise the MMEselects “VoIMS not supported”.

Yet another example is a packet switched handover, SR-VCC or CS handoverto a target network that is shared and broadcasts both a common publicland mobile network identity and at least one multiple public landmobile network identity. In these cases the source radio node (eNode B,RNC or BSC) shall select serving public land mobile network identity inthe target shared network and indicate the selected serving public landmobile network identity to a target radio node. The radio node of EUTRANor GERAN does not know if the UE is supporting or non-supporting UE ofnetwork sharing in UTRAN, and a radio node of non-shared UTRAN does notknow if the UE is supporting or non-supporting UE. In these cases thesource radio node does not know whether to select the common public landmobile network identity or one of the multiple public land mobilenetwork identities for the target network, similarly to the circuitswitched fallback issue described above. The method described herein canbe used for this case as follows. The MME, MSC or SGSN checks towards adatabase whether the UE is supporting or non-supporting UE of sharednetwork. The MME, MSC or SGSN sends an indication to the radio node ofthe result of the UE capability received as a response from the databaseor the core network node can insert the capability of correct servingpublic land mobile network identity before forwarding the handovermessage to the target core network node. Alternatively, the radio nodedirectly checks the UE capability itself towards the database. The radionode then selects a common public land mobile network identity ifnon-supporting UE and one of the multiple public land mobile networkidentities if supporting UE as serving public land mobile networkidentity in the target shared network. This solution helps the targetnetwork to understand directly under the handover procedure which is thecorrect serving public land mobile network identity for the UE. As aresult, network signaling can be reduced.

While several embodiments have been provided in the present disclosure,it should be understood that the disclosed methods, elements and systemsmay be embodied in many other specific forms without departing from thespirit or scope of the present disclosure. The present examples are tobe considered as illustrative and not restrictive, and the intention isnot to be limited to the details given herein. For example, techniques,systems, subsystems, elements and methods described and illustrated inthe various embodiments as discrete or separate may be combined orintegrated with other systems, modules, techniques, or methods withoutdeparting from the scope of the present disclosure. Other items shown ordiscussed as coupled or directly coupled or communicating with eachother may be indirectly coupled or communicating through some interface,device, or intermediate component, whether electrically, mechanically,or otherwise. Other examples of changes, substitutions, and alterationsare ascertainable by one skilled in the art and could be made withoutdeparting from the spirit and scope disclosed herein.

What is claimed is:
 1. A method for performing a selection of a publicland mobile network identity in a shared network environment, in whichenvironment at least two public land mobile network identities areavailable for providing circuit switched based service to a userequipment, the method comprising: determining a capability of the userequipment (201), selecting the public land mobile network identity (202)at least partly on the basis of the capability of the user equipmentamong the at least two public land mobile network identities.
 2. Amethod as claimed in claim 1, the method further comprising: allocatingthe user equipment to a location area by means of a location areaidentifier comprising information on the selected public land mobilenetwork identity in order to provide circuit switched based service tothe user equipment.
 3. A method as claimed in claim 2, wherein the userequipment is allocated to location area by means of a location areaidentifier in a context at least one of the following: combined EPS/IMSIattach, combined tracking and location area update, combined trackingand location area update with IMSI attach.
 4. A method as claimed inclaim 1, wherein the determination of the capability of the userequipment (201) comprises a step of inquiring information from adatabase (305) if the user equipment is capable of supporting networksharing information broadcast or not.
 5. A method as claimed in claim 1,wherein the determination of the capability of the user equipmentcomprises a step of analyzing at least one of the following: MobileEquipment Identity (IMEI), Type Allocation Code (TAC).
 6. A method asclaimed in claim 1, wherein a multiple public land mobile networkidentity is selected if the determination of the capability of the userequipment (201) indicates that the user equipment is capable ofutilizing information relating to network sharing within systembroadcast information.
 7. A method as claimed in claim 1, wherein acommon public land mobile network identity is selected if thedetermination of the capability of the user equipment (201) indicatesthat the user equipment is capable of utilizing information relating tonetwork sharing within system broadcast information.
 8. A method asclaimed in claim 1, the method further comprising: storing at least oneof the following in a memory: the result of the determination of thecapability of the user equipment, information on the selected publicland mobile network, the location area identifier, information inquiredfrom the database, a reference indicating the capability of the userequipment.
 9. A method as claimed in claim 8, the method furthercomprising: checking if the memory comprises stored information relatingto at least one of the following: the result of the determination of thecapability of the user equipment, information on the selected publicland mobile network, the location area identifier, information inquiredfrom the database, a reference indicating the capability of the userequipment be utilized in a subsequent selection of the public landmobile network identity.
 10. A method as claimed in claim 1, wherein thecapability of the user equipment to support network sharing isdetermined based on a previously selected public land mobile networkselection indicated in a location area identifier.
 11. A method asclaimed in claim 1, wherein the selection of the public land mobilenetwork identity is configured to be performed in a context of circuitswitched fallback.
 12. A network element (103), comprising at least oneprocessor (401), and at least one memory (403;404) comprising computerprogram code to be executed at least partly by the at least oneprocessor (401) causing the network element (103) at least to perform aselection of a public land mobile network identity in a shared networkenvironment, in which environment at least two public land mobilenetwork identities are available for providing circuit switched basedservice to a user equipment (101), wherein the network element (103) isconfigured to determine a capability of the user equipment (101), andselect the public land mobile network identity at least partly on thebasis of the capability of the user equipment (101) among the at leasttwo public land mobile network identities.
 13. A network element (103)as claimed in claim 12, the network element (103) is further configuredto allocate the user equipment (101) to a location area by means of alocation area identifier comprising information on the selected publicland mobile network identity in order to provide circuit switched basedservice to the user equipment (101).
 14. A network element (103) asclaimed in claim 12, wherein the network element (103) is configured tobe coupled to a database (302) comprising at least part of informationon the capability of the user equipment (101).
 15. A network element(103) as claimed in claim 14, wherein the network element is configuredto inquire information from the database (302) in order to determine thecapability of the user equipment (101).
 16. A network element (103) asclaimed in claim 12, wherein a multiple public land mobile networkidentity is selected if the determination of the capability of the userequipment (101) indicates that the user equipment (101) is capable ofutilizing information relating to network sharing within systembroadcast information and in that a common public land mobile networkidentity is selected if the determination of the capability of the userequipment (101) indicates that the user equipment (101) is capable ofutilizing information relating to network sharing within systembroadcast information.
 17. A network element (103) as claimed in claim12, wherein the network element (103) comprises a memory for storing atleast one of the following: the result of the determination of thecapability of the user equipment (101), information on the selectedpublic land mobile network, the location area identifier, informationinquired from the database (302), a reference indicating the capabilityof the user equipment (101).
 18. A telecommunication system comprising apacket switched network, a shared network, in which at least two publicland mobile network identities are available for providing circuitswitched based service to a user equipment (101), the packet switchednetwork and the shared network are configured to interwork with eachother, wherein for selecting a public land mobile network identity thepacket switched network is configured to determine a capability of theuser equipment (101), and select the public land mobile network identityat least partly on the basis of the capability of the user equipment(101) among the at least two public land mobile network identities, andallocate the user equipment (101) to a location area by means of alocation area identifier comprising information on the selected publicland mobile network identity in order to provide circuit switched basedservice to the user equipment (101) within the shared network.